#This script executes regressions to estimate 
#associations between first-generation prenatal exposure to nonattainment 
#and first-generation economic outcomes (for fathers).

rm(list=ls())
gc()
library(reldist)
library(ineq)
library(stargazer)
library(data.table)
library(dplyr)
library(dtplyr)
library(ggplot2)
library(stringdist)
library(lfe)
library(haven)
library(readr)
library(broom)
library(tidylog)
library(rdrobust)

# Set the working directory
setwd("/projects/opp_env/caa1970/")

# Source external R scripts for custom functions
source("Code/Child_Outcomes/child_outcomes_functions.R")
source("Code/rounding.r")

# Load the first-generation analysis dataset

load("Data/first_gen_analysis_data_jepmicro_acs.rda")

Table_B3 <- data.frame()

# Panel A: IV 

TabB3_A1 <- felm(log_real_wages ~ factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm |state_year+county_factor+year_factor + month+survey_year_by_year | (all_fullterm~nonattainment_infant)  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, real_wages > 0, real_wages < wage_cap, !is.na(parent_age_min),   !is.na(lfpr), !is.na(all_fullterm)))
summary(TabB3_A1)
TabB3_A1$N
temp_n<-  rounding_rules_counts(TabB3_A1$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, !is.na(all_fullterm), real_wages > 0, real_wages<wage_cap,!is.na(parent_age_min), !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$real_wages, na.rm=T ),4)
temp_f <-  signif(TabB3_A1$stage1$iv1fstat[[1]]["F"],4)
temp_results <- tidy(TabB3_A1) %>% filter(term == "`all_fullterm(fit)`" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl, fstat = temp_f,  table = "4", column ="A1" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

TabB3_A1 <- felm(real_wages ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+tmin_fullterm+prec_fullterm+anyprec_fullterm |state_year+county_factor+year_factor+month+survey_year_by_year | (all_fullterm~nonattainment_infant)  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, real_wages > 0, real_wages < wage_cap, !is.na(lfpr), !is.na(parent_age_min), !is.na(all_fullterm), !is.na(PI_PC)))
summary(TabB3_A1)
TabB3_A1$N
temp_n<-  rounding_rules_counts(TabB3_A1$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, !is.na(all_fullterm),  real_wages > 0, real_wages<wage_cap, !is.na(parent_age_min), !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$real_wages, na.rm=T ),4)
temp_f <-  signif(TabB3_A1$stage1$iv1fstat[[1]]["F"],4)
temp_results <- tidy(TabB3_A1) %>% filter(term == "`all_fullterm(fit)`" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl, fstat = temp_f,  table = "4", column ="A2" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

TabB3_A3 <- felm(lfpr ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm |state_year+county_factor+year_factor+month+survey_year_by_year | (all_fullterm~nonattainment_infant)  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, real_wages < wage_cap, !is.na(all_fullterm), !is.na(parent_age_min), !is.na(real_wages)))

summary(TabB3_A3)
TabB3_A3$N
temp_n<-  rounding_rules_counts(TabB3_A3$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, !is.na(all_fullterm), real_wages < wage_cap, !is.na(parent_age_min), !is.na(PI_PC),nonattainment_infant == 0))$lfpr, na.rm=T ),4)
temp_f <-  signif(TabB3_A3$stage1$iv1fstat[[1]]["F"],4)
temp_results <- tidy(TabB3_A3) %>% filter(term == "`all_fullterm(fit)`" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl, fstat = temp_f,  table = "4", column ="A5" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

TabB3_A4 <- felm(unemployed ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm |state_year+county_factor+year_factor+month+survey_year_by_year | (all_fullterm~nonattainment_infant)  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, real_wages < wage_cap, !is.na(parent_age_min), !is.na(all_fullterm)))

summary(TabB3_A4)
TabB3_A4$N
temp_n<-  rounding_rules_counts(TabB3_A4$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33, AGE < 44, parent_female == 0, !is.na(all_fullterm), real_wages < wage_cap, !is.na(parent_age_min), !is.na(PI_PC),nonattainment_infant == 0))$unemployed, na.rm=T ),4)
temp_f <-  signif(TabB3_A4$stage1$iv1fstat[[1]]["F"],4)
temp_results <- tidy(TabB3_A4) %>% filter(term == "`all_fullterm(fit)`" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl, fstat = temp_f,  table = "4", column ="A6" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

TabB3_A5 <- felm(any_PA ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm |state_year+county_factor+year_factor+month+survey_year_by_year | (all_fullterm~nonattainment_infant)  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0,  real_wages < wage_cap, !is.na(lfpr), !is.na(parent_age_min), !is.na(all_fullterm)))

summary(TabB3_A5)
TabB3_A5$N
temp_n<-  rounding_rules_counts(TabB3_A5$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0, !is.na(all_fullterm),  real_wages < wage_cap, !is.na(parent_age_min), !is.na(PI_PC),nonattainment_infant == 0))$any_PA, na.rm=T ),4)
temp_f <-  signif(TabB3_A5$stage1$iv1fstat[[1]]["F"],4)
temp_results <- tidy(TabB3_A5) %>% filter(term == "`all_fullterm(fit)`" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl, fstat = temp_f,  table = "4", column ="A7" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

# Panel B: Reduced Form 

TabB3_B1 <- felm(log_real_wages ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm + nonattainment_infant |state_year+county_factor+year_factor+month+survey_year_by_year | 0  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0,  real_wages > 0, real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(all_fullterm)))

summary(TabB3_B1)
TabB3_B1$N
temp_n<-  rounding_rules_counts(TabB3_B1$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0, !is.na(all_fullterm), real_wages>0, real_wages < wage_cap, !is.na(parent_age_min), !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$real_wages, na.rm=T ),4)
temp_results <- tidy(TabB3_B1) %>% filter(term == "nonattainment_infant" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl,  table = "4", column ="B1" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

TabB3_B2 <- felm(real_wages ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm + nonattainment_infant |state_year+county_factor+year_factor+month+survey_year_by_year | 0  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0,  real_wages > 0, real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(all_fullterm)))

summary(TabB3_B2)
TabB3_B2$N
temp_n<-  rounding_rules_counts(Tab4_B2$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975,AGE >33 & AGE < 44, parent_female == 0, !is.na(all_fullterm), real_wages> 0, real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$real_wages, na.rm=T ),4)
temp_results <- tidy(TabB3_B2) %>% filter(term == "nonattainment_infant" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl,  table = "4", column ="B2" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset


TabB3_B3 <- felm(lfpr ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm + nonattainment_infant |state_year+county_factor+year_factor+month+survey_year_by_year | 0  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0,  real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(all_fullterm)))

summary(TabB3_B3)
TabB3_B3$N
temp_n<-  rounding_rules_counts(TabB3_B3$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975,AGE >33 & AGE < 44, parent_female == 0, !is.na(all_fullterm), real_wages < wage_cap, !is.na(parent_age_min), !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$lfpr, na.rm=T ),4)
temp_results <- tidy(TabB3_B3) %>% filter(term == "nonattainment_infant" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl,  table = "4", column ="B5" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset


TabB3_B4 <- felm(unemployed ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm + nonattainment_infant |state_year+county_factor+year_factor+month+survey_year_by_year | 0  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0,  real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(all_fullterm)))

summary(TabB3_B4)
TabB3_B4$N
temp_n<-  rounding_rules_counts(TabB3_B4$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33 & AGE < 44,parent_female == 0, !is.na(all_fullterm), real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$unemployed, na.rm=T ),4)
temp_results <- tidy(TabB3_B4) %>% filter(term == "nonattainment_infant" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl,  table = "4", column ="B6" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset


TabB3_B5 <- felm(any_PA ~factor(parent_race)+PI_PC*year_trend+
                  PI_PC*I(year_trend^2) +epop*year + total_transfers*year_trend + 
                  county_pop*year_trend + epop*I(year_trend^2) + 
                  total_transfers*I(year_trend^2) + county_pop*I(year_trend^2) +
                  tmax_fullterm+ tmin_fullterm+prec_fullterm+anyprec_fullterm + nonattainment_infant |state_year+county_factor+year_factor+month+survey_year_by_year | 0  |county_factor, 
                data=parent_piks_acs%>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0, real_wages < wage_cap, !is.na(parent_age_min),  !is.na(lfpr), !is.na(all_fullterm)))

summary(TabB3_B5)
TabB3_B5$N
temp_n<-  rounding_rules_counts(Tab4TabB3_B5_B7$N)
temp_ctrl <- signif(mean((parent_piks_acs %>% filter(year%in%1969:1975, AGE >33 & AGE < 44, parent_female == 0, !is.na(all_fullterm),  real_wages < wage_cap, !is.na(parent_age_min),   !is.na(lfpr), !is.na(PI_PC),nonattainment_infant == 0))$any_PA, na.rm=T ),4)
temp_results <- tidy(TabB3_B5) %>% filter(term == "nonattainment_infant" ) %>% #tidy regression, keep coef of interest
  mutate_each(funs(signif(.,4)), -term) %>% #round appropriately
  mutate(N=temp_n, ctrl_mean=temp_ctrl,  table = "4", column ="B7" ) #add variables for N and control mean, plus index the table number and column
Table_B3 <- bind_rows(Table_B3, temp_results) #Appended to big dataset

write_csv(Table_B3, "/projects/opp_env/caa1970/JPE_Micro/Output/Table B3/Table_B3.csv")
